Heliophysics Events Knowledgebase Coverage Registry (HCR)
Observation Details
Overview Where Groups: Mode, FOV, # spectra in map Data Links
2014-06-06 14:17:45-15:15:43
CORE (HOP0002) Polar Monitoring Campaign during the Solar Cycle
HOP 81 @ N Pole (Day 1, FSM)
x,y:93",-957"
Max FOV:108"x162"
Target:S. Pole
Nearby Events
6302A Continuum Intensity108"x162"341 spectra
6302A Longitudinal Flux Density108"x162"341 spectra
6302A Transverse Flux Density108"x162"341 spectra
6302A Velocity 6301.5A108"x162"341 spectra

Level 1 Summary
Level 2 Summary
Level 1 Monthly
Level 2 Monthly
SP Cubes 5 MB
SOTSP: CORE (HOP0002) Polar Monitoring Campaign during the Solar Cycle
2014-06-06T14:17:45 to 2014-06-06T15:15:43
Science Goal: HOP 81 @ N Pole (Day 1, FSM)
Program: Fast deep mode, HOP81 in the eclipse, WEST +680
Target: S. Pole
xcen=93 ycen=-957
Instrument: SOTSP
HOP/JOP: 0
Description: abstract of observational proposal Objectives: 1: To observe the evolution of the magnetic field distribution around the poles during the solar cycle. 2: To understand the relationship between photospheric magnetic field and the coronal structures (include the solar wind) around the poles. Scientific Background: The polar observations by SOT/SP revealed that there are many strong patchy magnetic poles around the poles. Such strong magnetic fields in the polar region may strongly relate with the dynamo and it is very important to observe the evolution of the magnetic field distribution for understanding the dynamo. The strong patchy magnetic poles have the trumpet-like vertical magnetic structure. Although we think that the trumpet structures may relate with the fast solar wind, there are no coronal (X-ray/EUV) structures on most of the magnetic structures. To understand the fast solar wind, the relationship between photospheric magnetic fields and coronal structures in the polar coronal hole is very essential. During the polarity reversal, the opposite polarity magnetic field invade the polar region. At the time, the relationship between coronal activities/structures and photospheric magnetic field is very interesting for understanding the solar wind. For FSM ???BFI G-band: FoV 221"x111", Binning: 2x2, Time resolution: 30 min, JPEG Quality: Q75, Data rate: 9 Mbits/h ???NFI Na I: IVDG mode, FoV: 328??? x 164???, Binning: 2x2, Time resolution: 5 min, JPEG Quality: Q75, Data rate: 102 Mbits/h ??? SP FoV 320??? x 164???, Pixel size: 0.32???/pix, Binning: 2x2, Single side mode Exposure: 4.8 sec (6 Cycles), JPEG Quality: Q75, Data rate: 600Mbits/map Note: The G-band images are used for mainly co-alignment. Please insert a G-band image when the observation starts. Note: One map per one day.

abstract of observational proposal Objectives: 1: To observe the evolution of the magnetic field distribution around the poles during the solar cycle. 2: To understand the relationship between photospheric magnetic field and the coronal structures (include the solar wind) around the poles. Scientific Background: The polar observations by SOT/SP revealed that there are many strong patchy magnetic poles around the poles. Such strong magnetic fields in the polar region may strongly relate with the dynamo and it is very important to observe the evolution of the magnetic field distribution for understanding the dynamo. The strong patchy magnetic poles have the trumpet-like vertical magnetic structure. Although we think that the trumpet structures may relate with the fast solar wind, there are no coronal (X-ray/EUV) structures on most of the magnetic structures. To understand the fast solar wind, the relationship between photospheric magnetic fields and coronal structures in the polar coronal hole is very essential. During the polarity reversal, the opposite polarity magnetic field invade the polar region. At the time, the relationship between coronal activities/structures and photospheric magnetic field is very interesting for understanding the solar wind. For FSM ???BFI G-band: FoV 221"x111", Binning: 2x2, Time resolution: 30 min, JPEG Quality: Q75, Data rate: 9 Mbits/h ???NFI Na I: IVDG mode, FoV: 328??? x 164???, Binning: 2x2, Time resolution: 5 min, JPEG Quality: Q75, Data rate: 102 Mbits/h ??? SP FoV 320??? x 164???, Pixel size: 0.32???/pix, Binning: 2x2, Single side mode Exposure: 4.8 sec (6 Cycles), JPEG Quality: Q75, Data rate: 600Mbits/map Note: The G-band images are used for mainly co-alignment. Please insert a G-band image when the observation starts. Note: One map per one day.

Annotations:
Hits: 41
Chief Observer
Cruz(RCO)
Timeline: gif use
See also
Datasets
Get All Data
saaIntervals hiIntervals

wavelength: 6302A Continuum Intensity cadence: 0 min fov: 108,162 images: 341 JavaScript Landing Page
wavelength: 6302A Velocity 6301.5A cadence: 0 min fov: 108,162 images: 341 JavaScript Landing Page
wavelength: 6302A Transverse Flux Density cadence: 0 min fov: 108,162 images: 341 JavaScript Landing Page
wavelength: 6302A Longitudinal Flux Density cadence: 0 min fov: 108,162 images: 341 JavaScript Landing Page
Time Series (SP Datacubes)